Progress in metal-organic chemical vapor deposition of high quality () 0001 N-polar (Al, Ga,
In) N films on sapphire, silicon carbide and silicon substrates is reviewed with focus on key …

This paper reviews the progress of N-polar ($000\mathop 1\limits^\_ $) GaN high frequency
electronics that aims at addressing the device scaling challenges faced by GaN high …

The polar nature of the wurtzite crystalline structure of GaN and ZnO results in the existence
of a spontaneous electric polarization within these materials and their associated alloys (Ga …

GaN-based high electron mobility transistors (HEMTs) have demonstrated high frequency
power amplification with considerably larger output power densities than that available from …

In this letter, we report the first N-polar InAlGaN quaternary back barrier high-electron-
mobility transistor (HEMT). The epitaxial device heterostructure was grown by metal organic …

There are three possible ways of reducing the charge density (ns) in the N-polar high
electron mobility transistors (HEMT) structures, by decreasing the channel thickness …

Scaling down the channel-thickness (t ch) in GaN/(In, Al, Ga) N high-electron-mobility-
transistors (HEMTs) is essential to eliminating short-channel effects in sub 100 nm gate …

To further increase the operation frequency of GaN high electron mobility transistors
(HEMTs) with high power gain in the mm-wave band (30–300 GHz), channel thickness must …

This chapter reviews the historical development and present status of N-polar 000 1¯ GaN
high electron mobility transistors (HEMTs) that aim at addressing the device scaling …

The microstructure of N-face InAlN layers, lattice-matched to GaN, was investigated by
scanning transmission electron microscopy and atom probe tomography. These layers were …